Fundamentals of Digital Logic and Microcomputer DesignJohn Wiley & Sons, 6 Haz 2005 - 848 sayfa Fundamentals of Digital Logic and Microcomputer Design, has long been hailed for its clear and simple presentation of the principles and basic tools required to design typical digital systems such as microcomputers. In this Fifth Edition, the author focuses on computer design at three levels: the device level, the logic level, and the system level. Basic topics are covered, such as number systems and Boolean algebra, combinational and sequential logic design, as well as more advanced subjects such as assembly language programming and microprocessor-based system design. Numerous examples are provided throughout the text. Coverage includes:
Fundamentals of Digital Logic and Microcomputer Design is an essential reference that will provide you with the fundamental tools you need to design typical digital systems. |
İçindekiler
BOOLEAN ALGEBRA AND DIGITAL LOGIC GATES | 53 |
1 | 91 |
COMBINATIONAL LOGIC DESIGN | 99 |
SEQUENTIAL LOGIC DESIGN | 135 |
MICROCOMPUTER ARCHITECTURE PROGRAMMING | 185 |
DESIGN OF COMPUTER INSTRUCTION SET AND THE CPU | 237 |
MEMORY IO AND PARALLEL PROCESSING | 299 |
99 | 317 |
APPENDIX AANSWERS TO SELECTED PROBLEMS | 627 |
APPENDIX BGLOSSARY | 633 |
APPENDIX CMOTOROLA 68000 and SUPPORT CHIPS | 649 |
APPENDIX D68000 EXECUTION TIMES | 661 |
APPENDIX EINTEL 8086 AND SUPPORT CHIPS | 671 |
APPENDIX F8086 INSTRUCTION SET REFERENCE DATA | 677 |
APPENDIX G68000 INSTRUCTION SET | 697 |
APPENDIX IVERILOG | 713 |
101 | 328 |
102 | 353 |
INTEL 8086 | 367 |
MOTOROLA MC68000 | 457 |
INTEL AND MOTOROLA 32 64BIT MICROPROCESSORS | 543 |
APPENDIX JVHDL | 757 |
807 | |
813 | |
814 | |
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adder addition affected assembler Assume binary block branch byte cache called carry chip circuit cleared clock combinational complement condition connected consider contains contents converter counter cycle decoder defined determined device diagram display enable example execution expression external field Figure flags flip-flop four function gate hand hardware HIGH implementation initial input instruction interrupt K-map language lines loaded logic means memory microcomputer microprocessor minterms mode MOVE Note obtained operand operation output perform pins port processor provides represented reset result segment sequence sequential shift shown in Figure shows signal signed specified stack statement stored symbol transfer truth table typical unit Write zero